This commit adds user documentation for the new MGMT daemon and
new FRR Management Framework.
Co-authored-by: Yash Ranjan <ranjany@vmware.com>
Co-authored-by: Abhinay Ramesh <rabhinay@vmware.com>
Co-authored-by: Ujwal P <ujwalp@vmware.com>
Signed-off-by: Pushpasis Sarkar <pushpasis@gmail.com>
It's not allowed to install routes with zero distance, let's disallow this
for route-maps as well.
Signed-off-by: Donatas Abraitis <donatas@opensourcerouting.org>
This option is useful to dump detailed information about the LSDB using
a single command (instead of one command per LSA type).
Signed-off-by: Renato Westphal <renato@opensourcerouting.org>
Combine all variations of this command into a single DEFPY to
improve maintainability. No behavioral changes intended.
Signed-off-by: Renato Westphal <renato@opensourcerouting.org>
Note that `ASNUM` in table, it is missing right parenthesis for
`(1-4294967295)`. So, adjust this table.
And correct other words for doc.
Signed-off-by: anlan_cs <vic.lan@pica8.com>
Quite a few well-known communities from IANA's list do
not receive special treatment in Cisco IOS XR, and at least one
community on Cisco IOS XR's special treatment list, internet == 0:0,
is not formally a well-known community as it is not in [IANA-WKC] (it
is taken from the Reserved range [0x00000000-0x0000FFFF]).
https://datatracker.ietf.org/doc/html/rfc8642
This is Cisco-specific command which is causing lots of questions when it
comes to debugging and/or configuring it properly, but overall, this behavior
is very odd and it's not clear how it should be treated between different
vendor implementations.
Let's deprecate it and let the operators use 0:0/0 communities as they want.
Signed-off-by: Donatas Abraitis <donatas@opensourcerouting.org>
Add a keyword self-originate" to extend current CLI commands to filter out self-originated routes only
a\) CLI to show ipv4/ipv6 self-originated routes
"show [ip] bgp [afi] [safi] [all] self-originate [wide|json]"
b\) CLI to show evpn self-originated routes
"show bgp l2vpn evpn route [detail] [type <ead|macip|multicast|es|prefix|1|2|3|4|5>] self-originate [json]"
Signed-off-by: Karl Quan <kquan@nvidia.com>
Implement: https://datatracker.ietf.org/doc/html/draft-abraitis-bgp-version-capability
Tested with GoBGP:
```
% ./gobgp neighbor 192.168.10.124
BGP neighbor is 192.168.10.124, remote AS 65001
BGP version 4, remote router ID 200.200.200.202
BGP state = ESTABLISHED, up for 00:01:49
BGP OutQ = 0, Flops = 0
Hold time is 3, keepalive interval is 1 seconds
Configured hold time is 90, keepalive interval is 30 seconds
Neighbor capabilities:
multiprotocol:
ipv4-unicast: advertised and received
ipv6-unicast: advertised
route-refresh: advertised and received
extended-nexthop: advertised
Local: nlri: ipv4-unicast, nexthop: ipv6
UnknownCapability(6): received
UnknownCapability(9): received
graceful-restart: advertised and received
Local: restart time 10 sec
ipv6-unicast
ipv4-unicast
Remote: restart time 120 sec, notification flag set
ipv4-unicast, forward flag set
4-octet-as: advertised and received
add-path: received
Remote:
ipv4-unicast: receive
enhanced-route-refresh: received
long-lived-graceful-restart: advertised and received
Local:
ipv6-unicast, restart time 10 sec
ipv4-unicast, restart time 20 sec
Remote:
ipv4-unicast, restart time 0 sec, forward flag set
fqdn: advertised and received
Local:
name: donatas-pc, domain:
Remote:
name: spine1-debian-11, domain:
software-version: advertised and received
Local:
GoBGP/3.10.0
Remote:
FRRouting/8.5-dev-MyOwnFRRVersion-gdc92f44a45-dirt
cisco-route-refresh: received
Message statistics:
```
FRR side:
```
root@spine1-debian-11:~# vtysh -c 'show bgp neighbor 192.168.10.17 json' | \
> jq '."192.168.10.17".neighborCapabilities.softwareVersion.receivedSoftwareVersion'
"GoBGP/3.10.0"
root@spine1-debian-11:~#
```
Signed-off-by: Donatas Abraitis <donatas@opensourcerouting.org>
Adjust doc:
1. Correct the pid path for daemons
2. Add empty line before `kill` command
3. Remove one useless line in "ripd.rst"
Signed-off-by: anlan_cs <vic.lan@pica8.com>
A new keyword permits changing the BGP as-notation output:
- [no] router bgp <> [vrf BLABLA] [as-notation [<dot|plain|dot+>]]
At the BGP instance creation, the output will inherit the way the
BGP instance is declared. For instance, the 'router bgp 1.1'
command will configure the output in the dot format. However, if
the client wants to choose an alternate output, he will have to
add the extra command: 'router bgp 1.1 as-notation dot+'.
Also, if the user wants to have plain format, even if the BGP
instance is declared in dot format, the keyword can also be used
for that.
The as-notation output is only taken into account at the BGP
instance creation. In the case where VPN instances are used,
a separate instance may be dynamically created. In that case,
the real as-notation format will be taken into acccount at the
first configuration.
Linking the as-notation format with the BGP instance makes sense,
as the operators want to keep consistency of what they configure.
One technical reason why to link the as-notation output with the
BGP instance creation is that the as-path segment lists stored
in the BGP updates use a string representation to handle aspath
operations (by using regexp for instance). Changing on the fly
the output needs to regenerate this string representation to the
correct format. Linking the configuration to the BGP instance
creation avoids refreshing the BGP updates. A similar mechanism
is put in place in junos too.
Signed-off-by: Philippe Guibert <philippe.guibert@6wind.com>
1. When OSPF unnumbered neighbor doesn't exist in any VRF,
OSPFD prints a bunch of empty JSON objects. Fixed it
by adding an outer JSON object with VRF information in it
2. Added "vrf" option to this command so that per VRF
unnumbered OSPF neighbor information can be retrieved
JSON output:
nl1# show ip ospf neighbor swp1 detail json
{
"default":{
},
"vrf1012":{
},
"vrf1013":{
},
"vrf1014":{
}
}
nl1# show ip ospf vrf vrf1012 neighbor swp4.2 detail json
{
"9.9.12.10":[
{
"ifaceAddress":"200.254.2.46",
"areaId":"0.0.0.0",
"ifaceName":"swp4.2",
"localIfaceAddress":"200.254.2.45",
"nbrPriority":1,
"nbrState":"Full",
"role":"DR",
"stateChangeCounter":6,
"lastPrgrsvChangeMsec":1462758,
"routerDesignatedId":"200.254.2.46",
"routerDesignatedBackupId":"200.254.2.45",
"optionsCounter":2,
"optionsList":"*|-|-|-|-|-|E|-",
"routerDeadIntervalTimerDueMsec":37140,
"databaseSummaryListCounter":0,
"linkStateRequestListCounter":0,
"linkStateRetransmissionListCounter":0,
"threadInactivityTimer":"on",
"threadLinkStateRequestRetransmission":"on",
"threadLinkStateUpdateRetransmission":"on"
}
]
}
nl1#
Signed-off-by: Pooja Jagadeesh Doijode <pdoijode@nvidia.com>
Consider this scenario:
Lots of peers with a bunch of route information that is changing
fast. One of the peers happens to be really slow for whatever
reason. The way the output queue is filled is that bgpd puts
64 packets at a time and then reschedules itself to send more
in the future. Now suppose that peer has hit it's input Queue
limit and is slow. As such bgp will continue to add data to
the output Queue, irrelevant if the other side is receiving
this data.
Let's limit the Output Queue to the same limit as the Input
Queue. This should prevent bgp eating up large amounts of
memory as stream data when under severe network trauma.
Signed-off-by: Donald Sharp <sharpd@nvidia.com>
